DAFTAR PUSTAKA
Abdurrosyid, J. dan Santosa, H. 2004, Kajian erosi lahan dan pengaruhnya terhadap
sedimentasi Waduk Gajah Mungkur di Kabupaten Wonogiri Jawa Tengah, Jurnal
dan Pengembangan Keairan, no. 1 year 11, pp.19-31.
Atmojo, P.A. 2012, „Pengaruh Tinggi Muka Air Terhadap Efektivitas Penggelontoran
Sedimen‟, Disertasi, Doktor, Program Doktor Teknik Sipil Universitas
Diponegoro, Semarang.
BBWS Bengawan Solo. 2008, Rencana Operasi Waduk Wonogiri Masa Tanam Tahun
2008 – 2009, Sekretariat Bersama Tata Pengaturan Air Wilayah Sungai Bengawan Solo, Surakarta.
Brune, G.M., 1953. Trap Efficiency of Reservoirs, Trans. Am. Geophysical Union, 34
(3):407-418 cit. Morris, G.L., & Fan J. 1997, Design and Management of Dams,
Reservoirs, and Watersheds for Sustainable Use, McGraw Hill, USA.
Chang, Fi John; Lai, Jihn Sung & Kao, Li Shan. 2003, Optimization of Operation Rule
Curve and Flushing Schedule In A Reservoir, Hydrological Processes, Volume
17, Issue 8, pp. 1623-1640.
Chapra, S.C. 1997, Surface Water Quality Modeling, McGraw Hill, Singapore.
Churchill, M.A. 1948, „Discussion of “Analysis and Use of Reservoir Sedimentation
Data”, by L. C. Gottschalk‟, Proc. Federal Inter-Agency Sedimentation Conf.,
Denver, pp. 139 – 140 cit. Morris, G.L., & Fan J. 1997, Design and Management
of Dams, Reservoirs, and Watersheds for Sustainable Use, McGraw Hill, USA.
Craig, Paul M. 2012, User’s Manual for EFDC_Explorer : A Pre/ Post Processor for
the Environmental Fluid Dynamics Code, Dynamic Solutions-International, LLC, Knoxville, TN.
DPU, 1982, Wonogiri Multipurpose Dam Project: Manual for Operation and
Maintenance, Nippon Koei Co. Ltd.
Dufresne, M., Dewals, B.J., Erpicum, S., Archambeau, P., and Pirotton, M. 2010, Experimental Investigation of Flow Pattern and Sediment Deposition In
Rectangular Shallow Reservoirs, International Journal of Sediment Research,
Vol. 25 No. 3, pp. 258-270.
EFDC Team. 2014, Calibration parameter and their range in EFDC model, diakses 4 Januari 2014, efdchelp.wordpress.com/tag/efdc-model.
Effler, S.W., Matthews, D.A., Kaser, J.W., Prestigiacomo, A.R., and Smith, D.G. 2006, Runoff Event Impacts On A Water Supply Reservoir Suspended Sediment
Loading, Turbid Plume Behavior, And Sediment Deposition, Journal of The
American Water Resources Association, Vol. 42, pp. 1697 – 1710.
Elci, S., Work, P.A. and Hayter, E.J. 2007, Influence of Stratification and Shoreline
Erosion on Reservoir Sedimentation Patterns, Journal of Hydraulic Engineering,
Hadihardaja, I. K. 2009, Decision Support System for Optimal Reservoir Operation
Modeling Within Sediment Deposition Control, Water Science & Technology,
59(3), pp. 479-489.
Hassanzadeh, Y. 2004, „Predicting the Pattern of Sedimentation in a Storage Reservoir‟,
Proceeding 1stInternational Conference on Managing Rivers in the 21st Century : Issues & Challenges, pp. 631-635.
Hastowo, P. 2003, Pendangkalan Waduk di Indonesia, Majalah Air , Nopember –
Desember 2003, pp. 36-39.
Huang, J., Hilldale, R.C., and Greimann, B.P. 2008, „Cohesive Sediment Transport‟,
Erosion and Sedimentation Manual, USBR, p 4-1 – 4-54.
Jain, S.K.; and Singh, V.P. 2003, Water Resources Systems Planning and Management,
Elsevier, Amsterdam.
James, S.C., Jones, C.A., Grace, M.D., and Roberts, J.D. 2010, Advances in sediment
transport modelling, Journal of Hydraulics Research, Vol. 48 No. 6, pp. 754-763
Ji, Un. 2006, „Numerical Model For Sediment Flushing At The Nakdong River Estuary
Barrage‟, Dissertation, PhD, Departement of Civil Engineering, Colorado State
University, Fort Collins, Colorado, USA.
Jin, K.R., Hamrick, J.H., and Tisdale, T. 2000, Application of Three Dimensional
Hydrodynamic Model for Lake Okeechobee, Journal of Hydraulic Engineering,
Vol. 126, no. 10, pp. 758-771
Jin, K.R., and Gang, Z. 2004, Case Study : Modeling of Sediment Transport and
Wind-Wave Impact in Lake Okeechobee, Journal of Hydraulic Engineering, Vol. 130
No. 11, pp. 1055-1067
Jin, K.R., Hamrick, J.H., and Tisdale, T. 2000, Application of Three Dimensional
Hydrodynamic Model for Lake Okeechobee, Journal of Hydraulic Engineering,
Vol. 126 No. 10, pp. 758-771
Jin, K.R., and Gang, Z. 2004, Case Study : Modeling of Sediment Transport and
Wind-Wave Impact in Lake Okeechobee, Journal of Hydraulic Engineering, Vol. 130
No. 11, pp. 1055-1067.
Kementerian PU. 2007a, Volume I : Executive Summary The Study On
Countermeasures For Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Kementerian PU. 2007b, Volume II : Main Report The Study On Countermeasures For
Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Kementerian PU. 2007c, Volume III : Supporting Report I The Study On
Countermeasures For Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Kementerian PU. 2007d, Volume IV : Supporting Report II The Study On
Countermeasures For Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Kementerian PU. 2007e, Volume V : Supporting Report III The Study On Countermeasures For Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Kementerian PU. 2007f, Volume VI : Data Book The Study On Countermeasures For
Sedimentation in The Wonogiri Multipurpose Dam Reservoir In The Republic Of Indonesia, JICA.
Krisetyana,H. 2008, „Tingkat Efisiensi Penggelontoran Endapan Sedimen di Waduk
PLTA PB. Sudirman‟, Tesis, MT, Program Magister Teknik Sipil Universitas
Diponegoro, Semarang.
Labadie, J. W. 2003, User Guide Generalized Dynamic Programming Package
CSUDP, Colorado State University, USA.
Lara, J.M., and Pemberton, E.L. 1963, „ Initial Unit Weight of Deposited Sediments‟,
pp 818-845, Proc. Federal Interagency Sedimentation Conf., USDA-ARS Mirc.
Publ. 1970 cit. Morris, G.L., & Fan J. 1997, Design and Management of Dams,
Reservoirs, and Watersheds for Sustainable Use. McGraw Hill, USA.
Legono, D., dan Fathani, T.F., 2007, Sedimentation Problems of Some Reservoirs In Indonesia: Current Issues After Two Decades of The Development, viewed 28 Juni 2011, https://prisma.lppm.ugm.ac.id
Liu, J., Minami, S., Otsuki, H., Liu, B., and Ashida, K. 2004, Prediction of Concerted
Sediment Flushing, Journal of Hydraulic Engineering, Vol. 130 No. 11, pp.
1089-1096.
Lu, Y.J. and Wang, Z.Y. 2009, 3D Numerical Simulation for Water Flows and
Sediment Deposition in Dam Areas of the Three Gorges Project, Journal of
Hydraulic Engineering, Vol. 135 No. 9, pp. 755-769.
Lu, Y., Zuo, L., Ji, R. and Liu, H. 2010, Deposition And Erosion In The Fluctuating Backwater Reach of The Three Gorges Project After Upstream Reservoir
Adjustment, International of Sediment Research, Vol 25 No. 1, pp. 64-80.
Mellor, G.L., and T. Yamada 1982, Development of A Turbulence Closure Model for
Geophysical Fluid Problems, Rev. Geophys. Space Phys., 20, 851-875 cit. Tetra
Tech. 2007b, The Environmental Fluid Dynamics Code Theory and Computation
Volume 2 : Sediment and Contaminant Transport and Fate, Fairfax.
Morris, G.L., & Fan J. 1997, Design and Management of Dams, Reservoirs, and
Watersheds for Sustainable Use, McGraw Hill, USA.
Mukhlisin, M. 2007, Enviromental Study Impact of Sediment Flushing on Downstream Area Case Study : Planning of Sediment Flushing on Gadjah Mungkur Dam,
Wonogiri, Central Java, Wahana Teknik Sipil, Vol. 12 No. 2, pp. 139-149.
Mulyanto, HR. 2008, Efek Konservasi dari Sistim Sabo untuk Pengendalian
Sedimentasi Waduk, Graha Ilmu, Yogyakarta, Indonesia.
Nandalal, K.D.W. and Bogardi, J.J. 2007, Dynamic Programming Based Operation of
Reservoir : Applicability and Limits, Cambridge University Press, New York, USA.
Nicklow., J.W., and Mays, L.W. 2000, Optimization of Multiple Reservoir Network for
Sedimentation Control, Journal of hydraulic Engineering, Vol. 126 No. 4, pp.
232-242.
Notohadiprawiro, T., Sukodarmodjo, S., dan Dradjad, M. 1981, Beberapa Fakta dan
Angka Tentang Lingkungan Fisik Waduk Wonogiri dan Kepentingannya Sebagai Dasar Pengelolaan, Lokakarya Pengembangan dan Pelestarian Wilayah Waduk Wonogiri, Tawangmangu-Surakarta, Indonesia.
NSCBN Regional Jawa. 2009, Mid Term Action Plan and Project Digest, NSCBN
Regional Jawa, Indonesia.
Owens, G.M., Gelda, R.K., Effler, S.W., Rusello, P.J., Cowen, E.C., and Pierson, D.C.
2011, Modelng Resuspension In A Dynamic Water Supply Reservoir, Journal of
Environmental Engineering, Vol. 137 No. 7, pp. 585-595.
Palmieri, A., Shah F., Annandale G.W. and Dinar A. 2003, Reservoir Conservation,
Vol. 1 : The RESCON Approach, The International Bank, Washington, D.C. cit. Coker, E. Howard; Hotchkiss, Rollin H.; and Johnson, Dennis A. 2009, Conversion of A Missouri River Dam and Reservoir to A Sustainable System :
Sediment Management, Journal of The American Water Resources Association,
Vol. 45 No. 4, pp. 815-827.
Pemerintah Kabupaten Kebumen. 2012, Wadaslintang Susut 107 juta m3, viewed 15
Mei 2012, www.kebumenkab.go.id.
Perum Jasa Tirta I, 2011, Reservoir Sedimentation In Brantas River Basin, viewed 10
Pebruari 2011, http://www.jasatirta1.co.id
Perum Jasa Tirta I, 2015, Laporan Akhir Road Map Pengelolaan Sedimentasi Waduk
Wonogiri WS Bengawan Solo dan Waduk Kedung Ombo WS Jratunseluna, Lembaga Kerjasama Fakultas Teknik UGM.
Petkovsek, G. and Roca, M. 2014, Impact of Reservoir Operation On Sediment
Deposition, Proceedings of ICE-Water Management, 167(WM10), pp. 577-584.
PLN & UGM, 1995, Laporan Penelitian Sedimentasi Waduk PLTA Panglima Besar
Sudirman, UGM, Yogyakarta, Indonesia.
Puslitbang Pengairan. (1986), Executive Summary : Monitoring Erosi/ Sedimentasi
Berupa Pengukuran, Perencanaan dan Penelitian Erosi/ Sedimentasi di Catchment Area Waduk Wonogiri, Balitbang PU, Departemen PU, Indonesia.
ReVelle, C. 1999, Optimizing Reservoir Resources Including A New Model for
Reservoir Reliability, John Wiley & Sons, Inc., New York, USA.
Sardi, Kironoto, B.A., dan Jayadi, R. 2008, Kajian Penanganan Sedimentasi Dengan
Waduk Penampung Sedimen Pada Bendungan Serbaguna Wonogiri, Forum
Teknik Sipil, No. XVIII, pp.879-887.
Simoes, F.J.M., and Yang, C.T. 2008, „ Sediment Modeling for Rivers and Reservoir‟,
Erosion and Sedimentation Manual, USBR, pp. 5-1 – 5-92.
Simon, D.B. and Senturk, F. 1992, Sediment Transport Technology : Water and
Smagorinsky, J. 1963, General Circulation Experiments With The Primative Equations,
Part I : The Basic Experiment. Mon. Wea. Rev., 91, 99-152 cit. Tetra Tech.
2007b, The Environmental Fluid Dynamics Code Theory and Computation
Volume 2 : Sediment and Contaminant Transport and Fate, Fairfax, VA.
Souza, L.B.S., Schulz, H.E., Villela, S.M., and Gulliver, J.S. 2010, Experimental Study and Numerical Simulation of Sediment Transport In A Shallow Reservoir,
Journal of Applied Fluid Mechanics, Vol. 3 No. 2, pp. 9-21.
Strand, R.I., and Pemberton, E.L. 1987, „Reservoir Sedimentation‟, Design of Small
Dams, USBR, Denver cit. Morris, G.L., & Fan J. 1997, Design and Management
of Dams, Reservoirs, and Watersheds for Sustainable Use. McGraw Hill, USA. Subekti, S. 2003, Kajian Sedimentasi Waduk Sempor di Kebumen Jawa Tengah
Melalui Erosi Daerah Tangkapan, viewed 6 Des 2010 www.mpba.ugm.ac.id
Suharyanto. 1997, Analisa Unjuk Kerja Waduk, Media Komunikasi Teknik Sipil, Edisi
VIII, pp. 51-57
Suripin. 2001,Pengaruh Sedimentasi Waduk Terhadap Keberlanjutan Pembangunan,
Jurnal dan Pengembangan Keairan,No. 1, tahun 8 Juli 2001.
Tetra Tech. 2007a, The Environmental Fluid Dynamics Code Theory and Computation
Volume 1 : Hydrodynamics and Mass Transport, Fairfax, VA.
Tetra Tech. 2007b, The Environmental Fluid Dynamics Code Theory and Computation
Volume 2 : Sediment and Contaminant Transport and Fate. Fairfax, VA.
UGM. 2005, Sedimentation Analysis and Flume Erosion Test for The Sedimentation In
The Wonogiri Reservoir, Hydraulics Laboratory Civil Engineering Departement Gadjah Mada University, Yogyakarta. Indonesia.
Van Rijn, L.C. 2013, Sedimentation of Sand and Mud In Reservoirs In Rivers, viewed
29 Agustus 2013 www.leovanrijn-sediment.com
Vreugdenhil, C.B. 1994, Numerical Methods For Shallow Water Flow, Kluwer
Academic Publisher, Netherlands.
Wang, S., Qian, X., and Han, B. 2010, „Modeling The Effect of Inflow and Outflow
Volume on Turbidity Variation in Liuxihe Reservoir‟, Proceeding of
Bioinformatics and Biomedical Engineering.
Wohl, E. and Rathburn, S. 2003, Mitigation of Sedimentation Hazards Downstream
From Reservoir, International Journal of Sediment Research, Vol. 18 No. 2, pp.
97-106.
Wulandari, D.A.. 2007, Penanganan Sedimentasi Waduk Mrica, Berkala Ilmiah Teknik
Keairan (BITK), Vol. 13 No. 4, pp. 264-271.
Wulandari, D.A., Legono, D., and Darsono, S. 2014, Reservoir Operation to Minimize
Sedimentation, International Journal of Science and Engineering, Vol. 6(1), pp.
16-23.
Yang, C.T. 1996, Sediment Transport Theory and Practice, McGraw-Hill, Singapore.
Zhang, Y., Hu, C., and Wang, Y. 2011, „1-D Mathematical Model For Heavily Sediment-Laden Rivers and Its Applications‟, US-China Workshop On Advanced
Computational Modeling In Hydroscience & Engineering, Sept 19-21, Oxford, Mississippi, USA, diakses 03 Maret 2011.